基于贝叶斯压缩感知的FD-MIMO雷达Off-Grid目标稀疏成像

传统压缩感知(CS,Compressive Sensing)成像方法一般假定目标精确位于事先划定的成像网格上,实际中由于散射点空间位置是连续分布的,因此偏离网格(Off-grid)问题必然存在.这会引起真实回波测量值与默认系统观测矩阵之间失配,导致传统CS成像方法性能恶化.本文基于频率分集多输入多输出(FD-MIMO,Frequency Diverse Multiple-Input Multiple-Output)雷达,针对Off-grid目标提出了一种基于贝叶斯压缩感知的稀疏自聚焦(SAF-BCS,Sparse Autofocus Imaging Method Based on Bayesian Compressive Sensing)成像算法.该算法依据最大后验(MAP,Maximum A Posteriori)准则,利用变分贝叶斯学习技术求解含有Off-grid目标的稀疏像.与传统稀疏重构方法相比,所提方法充分利用了目标先验信息,可自适应调整参数,能够更好地反演稀疏目标,同时具有校正Off-grid目标的网格位置偏差以及估计噪声功率等优势.仿真结果表明SAF-BCS算法对网格划分不敏感,具有稳健的成像性能.

MIMO雷达三维成像自适应Off-grid校正方法

在压缩感知成像算法中,真实目标点一般不会恰好落在预先划定的网格点上,这种网格偏离(Off-grid)问题会带来真实回波与测量矩阵之间的失配,严重降低雷达成像的性能。针对多输入多输出(MIMO)雷达3维成像的网格失配问题,该文提出一种自适应的Off-grid校正方法,基于Off-grid目标的稀疏回波模型构造贝叶斯概率密度函数,采用最大后验概率(MAP)方法求解含有失配偏差的稀疏像。与传统方法相比,该方法可以充分利用失配参数的先验信息,自适应地更新参数,降低了失配误差的影响,并能实现对稀疏目标和噪声功率的高精度估计。仿真结果表明,该方法可以有效地实现对网格失配的优化,具有精确且稳定的成像性能。

基于扰动的结合Off-grid目标的层析SAR三维成像方法

层析合成孔径雷达(TomoSAR)通过组合在不同高度上获取的多基线二维SAR数据,实现合成孔径雷达的三维成像。TomoSAR的求解本质是一维谱估计问题,基于压缩感知的方法可以在非均匀分布的少量基线观测下实现求解,逐渐成为了主流的成像方式。在经典的压缩感知算法流程中,需要将连续的高程向划分成固定的网格,并且假定目标正好位于所划分的网格上。然而该假设通常难以成立,从而引起"基失配"问题,目前该问题在TomoSAR中很少被讨论。该文首先讨论了目标不在网格(Off-grid)上的TomoSAR观测模型,提出了采用加性扰动项来修正目标偏离网格所带来影响的求解模型。在此基础之上,引入局部优化算法与L;范数最小化结合的方法,求解所提出的Off-grid TomoSAR模型。最后,利用仿真数据和机载阵列干涉SAR实际飞行数据进行了验证,结果表明,对于Off-grid目标,该方法能够得到比基于L;范数最小化的经典方法更准确的位置、幅度和相位求解结果,证明了方法的优越性。

基于联合稀疏重构模型的双基MIMO雷达off-grid目标参数快速估计

针对多输入多输出(MIMO)雷达二维参数稀疏估计中的不在格点上(off-grid)目标问题,利用两次泰勒展开对信号模型进行修正,构建联合稀疏重构模型,将off-grid问题转化为联合稀疏重构问题;为降低计算复杂度,针对该联合稀疏重构模型提出Joint-2D-OMP算法。仿真结果表明:所提模型和算法在解决off-grid问题的同时,可有效提高参数估计的速度。

基于变分稀疏贝叶斯的off-grid DOA估计

针对传统稀疏贝叶斯学习方法在解决低信噪比条件下信号到达角DOA估计中,到达角不完全落在阵元端离散化网格点上的情况,提出了一种基于变分稀疏贝叶斯学习期望最大化的离格DOA处理方法.该方法首先对均匀线阵的实际接收信号off-grid情况建立参数化稀疏模型,利用变分稀疏贝叶斯学习方法,通过最小化KL散度寻求一个与后验概率近似的概率分布,其次期望最大化方法分别在期望阶段和最大化阶段进行参数推断,进一步在离格误差模型下以较高的精度和分辨率实现信号到达角的估计,最后仿真结果表明,该方法不仅在传统SBL方法的基础上提高了运算效率,而且具有更高的空域分辨率和角度估计精度,该方法具有优越的角度估计性能.

Potential Off-Grid User Prediction System Based on Spark

With the increasingly fierce competition among communication operators,it is more and more important to make an accurate prediction of potential off grid users.To solve the above problem,it is inevitable to consider the effectiveness of learning algo rithms,the efficiency of data processing,and other factors.Therefore,in this paper,we,from the practical application point of view,propose a potential customer off grid predic tion system based on Spark,including data pre processing,feature selection,model build ing,and effective display.Furthermore,in the research of off grid system,we use the Spark parallel framework to improve the gcForest algorithm which is a novel decision tree ensemble approach.The new parallel gcForest algorithm can be used to solve practical problems,such as the off grid prediction problem.Experiments on two real world datasets demonstrate that the proposed prediction system can handle large scale data for the off grid user prediction problem and the proposed parallel gcForest can achieve satisfying per formance.

Optimal Sizing of Solar/Wind Hybrid Off-Grid Microgrids Using an Enhanced Genetic Algorithm

This paper presents a method for optimal sizing of an off-grid hybrid microgrid (MG) system in order to achieve a certain load demand. The hybrid MG is made of a solar photovoltaic (PV) system, wind turbine (TW) and energy storage system (ESS). The reliability of the MG system is modeled based on the loss of power supply probability (SPSP). For optimization, an enhanced Genetic Algorithm (GA) is used to minimize the total cost of the system over a 20-year period, while satisfying some reliability and operation constraints. A case study addressing optimal sizing of an off-grid hybrid microgrid in Nigeria is discussed. The result is compared with results obtained from the Brute Force and standard GA methods.

PV-Hybrid Off-Grid and Mini-Grid Systems for Rural Electrification in Sub-Saharan Africa

Rural electrification remains a great challenge for Sub-Saharan Africa (SSA) as access to electricity is a prerequisite to accelerate its development. The present paper reviews the measures adopted to promote access to electricity in rural and remote areas of SSA. The main barriers to rural electrification in these developing countries are presented before showing technologies used for the aforementioned purpose. Then, adopted methods for enhancing the use of renewable energy in SSA are shown. Moreover, the policy adopted by decision makers and project planners are also highlighted. In addition, the optimal solutions proposed by researchers are given such as the cost-effective off-grid system type that might be a viable alternative to diesel power generation.

Cost-effective Energy Monitoring of Domestic Off-grid PV Systems

Domestic off-grid renewable energy systems have become common place in many areas of the world, as humanity seeks to keep abreast with global technological changes and advancements. This paper aims to present a cost-effective energy monitoring system which may be used to analyze and evaluate the operation of a domestic off-grid PV system. Parameters which are monitored include the output voltage and current from a 55 W polycrystalline PV panel. The output voltage and current from a power regulation circuit (which could be a DC-DC converter, solar charger or MPPT) is also monitored with this singular system which incorporates a data logging interface circuit, a data logger and a personal computer.

Application Research of Off-grid Home Photovoltaic Power System in Shaanxi Northern Region

Because working performance of off-grid home photovoltaic power system is influenced by factors of solar radiation, ambient temperature and installation angle, this research established power supply model, analyzed working performance and optimized system configuration, by referencing weather conditions of Yulin and Yan’an and those factors. Results showed that under given solar radiation and ambient temperature, difference of installation angle can cause 30% to 40% difference of performance. In order to meet power demand, installation angles of Yulin and Yan'an were selected as 40 degree and 30 degree, and annual output power were 1.44 kWh/Wp and 1.32 kWh/Wp. Based on those results, the configuration of Yulin and Yan'an was 150 Wp and 170 Wp, and annual output power was 172.70 kWh and 179.66 kWh. Systems optimized above can meet the mid-scale demand in Shaanxi northern region and build theoretical foundation of application.

Design of Off-grid Home Photovoltaic Power System in Shaanxi Region

Shaanxi province has three land forms which are Shaanxi’s northern plateau, Guanzhong plain and Qinba mountain land in the south of Shaanxi province. So the climate type is also divided into three types and the solar energy resources distribution has a big gap between different regions. PV modules, as the core component of off-grid home photovoltaic power system, their output power are mainly influenced by sun radiation, array tile angle, temperature and so on. Based on the reasons above, in order to apply off-grid home photovoltaic power system in Shaanxi region, this paper designs different systems with different configuration, and makes the performance prediction. The results show that the capacity of PV modules reaches to the largest in Shaanxi northern region, reach minimum in Shaanxi southern region and the output power in the winter is less than in the summer and reach minimum in the spring and autumn. In light of the characteristics above, this research select different type and configuration in different areas systematically, and the performance analysis shows that the configuration can meet the basic life demand of power to the people whose power is not available.

Sustainable and Economic Alternative for the Electric Supply of Isolated Communities in the Brazilian Off-Grid Systems

Roughly 99% of the demand for electricity in Brazil is supplied by a national interconnected grid. The remaining 1% is spread in several “isolated systems” of the Amazon region—mini-grids that rely on expensive diesel gensets due to high commodity and transportation costs. The isolated systems also have remote communities disconnected altogether from the mini-grids with inadequate health, education and leisure services. These communities are precariously supplied by small inefficient diesel gensets that run for a few hours per day. In this article, we propose a sustainable and economic alternative for the electric supply of the remote communities of isolated systems through a combination of photovoltaic solar generation and storage. The objective is to improve access to electricity with savings for the communities. The present paper outlines a public policy to meet this objective.

Power Quality Consideration for Off-Grid Renewable Energy Systems

Necessity of electricity access in remote area is the main reason for expanding decentralized energy system such as stand-alone power systems. The best electrical power supply must provide a constant magnitude and frequency voltage. Therefore, good power quality is an important factor for the reliable operation of electrical loads in a power system. However, the current drawn by most of electronic devices and non-linear loads are non-sinusoidal, which can result in a poor power quality, especially in off-grid power systems. Poor power quality is characterized by electrical disturbances such as transients, sags, swells, harmonics and even interruptions in the power supply. Off-grid power systems worldwide often struggle with system failures and equipment damage due to poor power quality. In this paper, MAT- LAB/Simulink is used to model and analyses power quality in an off-grid renewable energy system. The results show high voltage transient when the inductive loads were switched OFF. The voltage and current harmonics are also determined and compared for various types of loads.

Innovative Approaches to Energy Provision in Off-Grid Rural Communities—A Case of Botswana

Although renewable energy technologies applications to rural communities to improve energy access have been embraced in numerous parts of the world, sustainability of these systems is increasingly becoming critical as far as realization of long term benefits is concerned. The current manuscript proposes approaches deemed to provide appropriate match between technology and users in a select of Botswana’s rural communities. The methodology includes a participatory and inclusive approach in which the local community is engaged in the generation of their own energy. Available information indicates that available feedstock in selected communities is sufficient to generate and provide sustainable energy supply for the community.

Hybrid Power System Options for Off-Grid Rural Electrification in Northern Kenya

For domestic consumers in the rural areas of northern Kenya, as in other developing countries, the typical source of electrical supply is diesel generators. However, diesel generators are associated with both CO2 emissions, which adversely affect the environment and increase diesel fuel prices, which inflate the prices of consumer goods. The Kenya government has taken steps towards addressing this issue by proposing The Hybrid Mini-Grid Project, which involves the installation of 3 MW of wind and solar energy systems in facilities with existing diesel generators. However, this project has not yet been implemented. As a contribution to this effort, this study proposes, simulates and analyzes five different configurations of hybrid energy systems incorporating wind energy, solar energy and battery storage to replace the stand-alone diesel power systems servicing six remote villages in northern Kenya. If implemented, the systems proposed here would reduce Kenya’s dependency on diesel fuel, leading to reductions in its carbon footprint. This analysis confirms the feasibility of these hybrid systems with many configurations being profitable. A Multi-Attribute Trade-Off Analysis is employed to determine the best hybrid system configuration option that would reduce diesel fuel consumption and jointly minimize CO2 emissions and net present cost. This analysis determined that a wind-diesel-battery configuration consisting of two 500 kW turbines, 1200 kW diesel capacity and 95,040 Ah battery capacity is the best option to replace a 3200 kW stand-alone diesel system providing electricity to a village with a peak demand of 839 kW. It has the potential to reduce diesel fuel consumption and CO2 emissions by up to 98.8%.

一种基于稀疏表示的Off-grid DOA估计方法

文章提出了一种基于改进信号模型的偏离网格(Off-grid)波达方向(DOA)估计方法,该模型基于稀疏空间协方差模型和泰勒展开下导向矢量的Off-grid表示。在此基础上,使用局部欠定系统解法(FOCUSS)解决稀疏恢复问题,并通过求解最小二乘(LS)问题以加快算法速度。仿真实验验证了本文算法具有优异的估计性能和较快的计算时间。

可再生能源电制氢合成氨系统的并/离网运行方式与经济性分析

可再生能源电制氢合成氨(renewablepowerto ammonia,Re Pt A)是风力发电、光伏发电等可再生能源的大规模消纳方式之一,也是化工行业实现低碳清洁发展的重要技术路线之一。利用风电光伏电解水制氢合成氨系统模型,分析电网调峰型系统、电网友好型系统、工艺离网型系统的绿氨成本,并对电化学储能设备规模、储氢设备规模、电解水制氢设备规模、电解水制氢设备效率等影响因素进行敏感性分析。基于3种绿氨系统的设备配置方案和运行方式评估不同类型系统所需的电网调峰电量,提出3种系统所适合的应用场景。研究结论是近期应该发展电网友好型RePtA系统,远期应该发展工艺离网RePtA系统。

太阳能界面蒸发可持续离网脱盐技术研究

随着全球环境污染问题愈发严重,淡水资源日趋匮乏,脱盐淡化技术成为研究热点。传统的脱盐淡化能耗高,太阳能界面蒸发技术能够直接利用可再生能源,清洁环保,是一种环境友好型离网脱盐工艺,可实现降低海水淡化成本和零碳排放的目标。介绍了离网脱盐技术的研究意义及前景,太阳能界面蒸发技术的基本内涵,并详细介绍了各类高效光热转换材料,主要包括光热碳材料、金属及氧化物、高分子聚合物及相关复合材料;归纳总结了太阳能驱动的各类界面蒸发脱盐工艺,主要包括太阳能界面多级闪蒸和多效蒸馏技术、膜蒸馏技术、温室海水淡化技术、太阳能加湿除湿技术及多能耦合脱盐技术等;最后针对当前全球环境和能源问题对未来利用太阳能界面蒸发技术进行离网脱盐未来的研究方向进行了展望。

离网型风光发电联合制氢系统的协调运行策略与容量配置优化

离网型风光发电制氢是降低风光发电对电网冲击、促进可再生能源消纳的重要手段,然而风光资源的波动性也对制氢系统高效稳定运行带来了负面影响。为提高离网型风光制氢系统运行稳定性,结合风力/光伏发电、碱性电解槽(alkaline electrolyzer,AE)和储能设备,提出电解槽模式分配与储能日前规划的协调制氢策略,并在计及单位制氢成本与弃风弃光率的基础上,采用改进的非支配排序遗传算法(non-dominated sorting genetic algorithm II,NSGA-II)进行容量配置优化。结合案例分析表明,与单一电解槽分配策略相比,协同策略的单位制氢成本和弃风弃光率分别降低了11.9%和55.6%。同时该策略有效平抑了电解槽的频繁波动,启停次数降低了44.3%,实现了风光制氢系统的高效运行。研究成果将为开发高效可再生制氢系统提供有益参考。

Connection Technology of HPTO Type WECs and DC Nano Grid in Island

Wave energy fluctuating a great deal endangers the security of power grid especially micro grid in island. A DC nano grid supported by batteries is proposed to smooth the output power of wave energy converters（WECs）. Thus, renewable energy converters connected to DC grid is a new subject. The characteristics of WECs are very important to the connection technology of HPTO type WECs and DC nano grid. Hydraulic power take-off system（HPTO） is the core unit of the largest category of WECs, with the functions of supplying suitable damping for a WEC to absorb wave energy, and converting captured wave energy to electricity. The HPTO is divided into a hydraulic energy storage system（HESS） and a hydraulic power generation system（HPGS）. A primary numerical model for the HPGS is established in this paper. Three important basic characteristics of the HPGS are deduced, which reveal how the generator load determines the HPGS rotation rate. Therefore, the connector of HPTO type WEC and DC nano grid would be an uncontrollable rectifier with high reliability, also would be a controllable power converter with high efficiency, such as interleaved boost converter-IBC. The research shows that it is very flexible to connect to DC nano grid for WECs, but bypass resistance loads are indispensable for the security of WECs.